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<h1 id="sec_name">
<span data-if="hdevelop" style="display:inline;">fuzzy_measure_pos</span><span data-if="c" style="display:none;">T_fuzzy_measure_pos</span><span data-if="cpp" style="display:none;">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none;">FuzzyMeasurePos</span><span data-if="python" style="display:none;">fuzzy_measure_pos</span> (算子名称)</h1>
<h2>名称</h2>
<p><code><span data-if="hdevelop" style="display:inline;">fuzzy_measure_pos</span><span data-if="c" style="display:none;">T_fuzzy_measure_pos</span><span data-if="cpp" style="display:none;">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none;">FuzzyMeasurePos</span><span data-if="python" style="display:none;">fuzzy_measure_pos</span></code> — Extract straight edges perpendicular to a rectangle or an annular arc.</p>
<h2 id="sec_synopsis">参数签名</h2>
<div data-if="hdevelop" style="display:inline;">
<p>
<code><b>fuzzy_measure_pos</b>(<a href="#Image"><i>Image</i></a> :  : <a href="#MeasureHandle"><i>MeasureHandle</i></a>, <a href="#Sigma"><i>Sigma</i></a>, <a href="#AmpThresh"><i>AmpThresh</i></a>, <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, <a href="#Transition"><i>Transition</i></a> : <a href="#RowEdge"><i>RowEdge</i></a>, <a href="#ColumnEdge"><i>ColumnEdge</i></a>, <a href="#Amplitude"><i>Amplitude</i></a>, <a href="#FuzzyScore"><i>FuzzyScore</i></a>, <a href="#Distance"><i>Distance</i></a>)</code></p>
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<div data-if="c" style="display:none;">
<p>
<code>Herror <b>T_fuzzy_measure_pos</b>(const Hobject <a href="#Image"><i>Image</i></a>, const Htuple <a href="#MeasureHandle"><i>MeasureHandle</i></a>, const Htuple <a href="#Sigma"><i>Sigma</i></a>, const Htuple <a href="#AmpThresh"><i>AmpThresh</i></a>, const Htuple <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const Htuple <a href="#Transition"><i>Transition</i></a>, Htuple* <a href="#RowEdge"><i>RowEdge</i></a>, Htuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, Htuple* <a href="#Amplitude"><i>Amplitude</i></a>, Htuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, Htuple* <a href="#Distance"><i>Distance</i></a>)</code></p>
</div>
<div data-if="cpp" style="display:none;">
<p>
<code>void <b>FuzzyMeasurePos</b>(const HObject&amp; <a href="#Image"><i>Image</i></a>, const HTuple&amp; <a href="#MeasureHandle"><i>MeasureHandle</i></a>, const HTuple&amp; <a href="#Sigma"><i>Sigma</i></a>, const HTuple&amp; <a href="#AmpThresh"><i>AmpThresh</i></a>, const HTuple&amp; <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const HTuple&amp; <a href="#Transition"><i>Transition</i></a>, HTuple* <a href="#RowEdge"><i>RowEdge</i></a>, HTuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, HTuple* <a href="#Amplitude"><i>Amplitude</i></a>, HTuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, HTuple* <a href="#Distance"><i>Distance</i></a>)</code></p>
<p>
<code>void <a href="HMeasure.html">HMeasure</a>::<b>FuzzyMeasurePos</b>(const HImage&amp; <a href="#Image"><i>Image</i></a>, double <a href="#Sigma"><i>Sigma</i></a>, double <a href="#AmpThresh"><i>AmpThresh</i></a>, double <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const HString&amp; <a href="#Transition"><i>Transition</i></a>, HTuple* <a href="#RowEdge"><i>RowEdge</i></a>, HTuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, HTuple* <a href="#Amplitude"><i>Amplitude</i></a>, HTuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, HTuple* <a href="#Distance"><i>Distance</i></a>) const</code></p>
<p>
<code>void <a href="HMeasure.html">HMeasure</a>::<b>FuzzyMeasurePos</b>(const HImage&amp; <a href="#Image"><i>Image</i></a>, double <a href="#Sigma"><i>Sigma</i></a>, double <a href="#AmpThresh"><i>AmpThresh</i></a>, double <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const char* <a href="#Transition"><i>Transition</i></a>, HTuple* <a href="#RowEdge"><i>RowEdge</i></a>, HTuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, HTuple* <a href="#Amplitude"><i>Amplitude</i></a>, HTuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, HTuple* <a href="#Distance"><i>Distance</i></a>) const</code></p>
<p>
<code>void <a href="HMeasure.html">HMeasure</a>::<b>FuzzyMeasurePos</b>(const HImage&amp; <a href="#Image"><i>Image</i></a>, double <a href="#Sigma"><i>Sigma</i></a>, double <a href="#AmpThresh"><i>AmpThresh</i></a>, double <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const wchar_t* <a href="#Transition"><i>Transition</i></a>, HTuple* <a href="#RowEdge"><i>RowEdge</i></a>, HTuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, HTuple* <a href="#Amplitude"><i>Amplitude</i></a>, HTuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, HTuple* <a href="#Distance"><i>Distance</i></a>) const  <span class="signnote">
            (
            Windows only)
          </span></code></p>
<p>
<code>void <a href="HImage.html">HImage</a>::<b>FuzzyMeasurePos</b>(const HMeasure&amp; <a href="#MeasureHandle"><i>MeasureHandle</i></a>, double <a href="#Sigma"><i>Sigma</i></a>, double <a href="#AmpThresh"><i>AmpThresh</i></a>, double <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const HString&amp; <a href="#Transition"><i>Transition</i></a>, HTuple* <a href="#RowEdge"><i>RowEdge</i></a>, HTuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, HTuple* <a href="#Amplitude"><i>Amplitude</i></a>, HTuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, HTuple* <a href="#Distance"><i>Distance</i></a>) const</code></p>
<p>
<code>void <a href="HImage.html">HImage</a>::<b>FuzzyMeasurePos</b>(const HMeasure&amp; <a href="#MeasureHandle"><i>MeasureHandle</i></a>, double <a href="#Sigma"><i>Sigma</i></a>, double <a href="#AmpThresh"><i>AmpThresh</i></a>, double <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const char* <a href="#Transition"><i>Transition</i></a>, HTuple* <a href="#RowEdge"><i>RowEdge</i></a>, HTuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, HTuple* <a href="#Amplitude"><i>Amplitude</i></a>, HTuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, HTuple* <a href="#Distance"><i>Distance</i></a>) const</code></p>
<p>
<code>void <a href="HImage.html">HImage</a>::<b>FuzzyMeasurePos</b>(const HMeasure&amp; <a href="#MeasureHandle"><i>MeasureHandle</i></a>, double <a href="#Sigma"><i>Sigma</i></a>, double <a href="#AmpThresh"><i>AmpThresh</i></a>, double <a href="#FuzzyThresh"><i>FuzzyThresh</i></a>, const wchar_t* <a href="#Transition"><i>Transition</i></a>, HTuple* <a href="#RowEdge"><i>RowEdge</i></a>, HTuple* <a href="#ColumnEdge"><i>ColumnEdge</i></a>, HTuple* <a href="#Amplitude"><i>Amplitude</i></a>, HTuple* <a href="#FuzzyScore"><i>FuzzyScore</i></a>, HTuple* <a href="#Distance"><i>Distance</i></a>) const  <span class="signnote">
            (
            Windows only)
          </span></code></p>
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<p>
<code>static void <a href="HOperatorSet.html">HOperatorSet</a>.<b>FuzzyMeasurePos</b>(<a href="HObject.html">HObject</a> <a href="#Image"><i>image</i></a>, <a href="HTuple.html">HTuple</a> <a href="#MeasureHandle"><i>measureHandle</i></a>, <a href="HTuple.html">HTuple</a> <a href="#Sigma"><i>sigma</i></a>, <a href="HTuple.html">HTuple</a> <a href="#AmpThresh"><i>ampThresh</i></a>, <a href="HTuple.html">HTuple</a> <a href="#FuzzyThresh"><i>fuzzyThresh</i></a>, <a href="HTuple.html">HTuple</a> <a href="#Transition"><i>transition</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#RowEdge"><i>rowEdge</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#ColumnEdge"><i>columnEdge</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#Amplitude"><i>amplitude</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#FuzzyScore"><i>fuzzyScore</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#Distance"><i>distance</i></a>)</code></p>
<p>
<code>void <a href="HMeasure.html">HMeasure</a>.<b>FuzzyMeasurePos</b>(<a href="HImage.html">HImage</a> <a href="#Image"><i>image</i></a>, double <a href="#Sigma"><i>sigma</i></a>, double <a href="#AmpThresh"><i>ampThresh</i></a>, double <a href="#FuzzyThresh"><i>fuzzyThresh</i></a>, string <a href="#Transition"><i>transition</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#RowEdge"><i>rowEdge</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#ColumnEdge"><i>columnEdge</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#Amplitude"><i>amplitude</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#FuzzyScore"><i>fuzzyScore</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#Distance"><i>distance</i></a>)</code></p>
<p>
<code>void <a href="HImage.html">HImage</a>.<b>FuzzyMeasurePos</b>(<a href="HMeasure.html">HMeasure</a> <a href="#MeasureHandle"><i>measureHandle</i></a>, double <a href="#Sigma"><i>sigma</i></a>, double <a href="#AmpThresh"><i>ampThresh</i></a>, double <a href="#FuzzyThresh"><i>fuzzyThresh</i></a>, string <a href="#Transition"><i>transition</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#RowEdge"><i>rowEdge</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#ColumnEdge"><i>columnEdge</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#Amplitude"><i>amplitude</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#FuzzyScore"><i>fuzzyScore</i></a>, out <a href="HTuple.html">HTuple</a> <a href="#Distance"><i>distance</i></a>)</code></p>
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<div data-if="python" style="display:none;">
<p>
<code>def <b>fuzzy_measure_pos</b>(<a href="#Image"><i>image</i></a>: HObject, <a href="#MeasureHandle"><i>measure_handle</i></a>: HHandle, <a href="#Sigma"><i>sigma</i></a>: float, <a href="#AmpThresh"><i>amp_thresh</i></a>: float, <a href="#FuzzyThresh"><i>fuzzy_thresh</i></a>: float, <a href="#Transition"><i>transition</i></a>: str) -&gt; Tuple[Sequence[float], Sequence[float], Sequence[float], Sequence[float], Sequence[float]]</code></p>
</div>
<h2 id="sec_description">描述</h2>
<p><code><span data-if="hdevelop" style="display:inline">fuzzy_measure_pos</span><span data-if="c" style="display:none">fuzzy_measure_pos</span><span data-if="cpp" style="display:none">FuzzyMeasurePos</span><span data-if="com" style="display:none">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none">FuzzyMeasurePos</span><span data-if="python" style="display:none">fuzzy_measure_pos</span></code> extracts <em>straight</em> edges which lie
<em>perpendicular</em> to the major axis of a rectangle or an annular arc.
In addition to <a href="measure_pos.html"><code><span data-if="hdevelop" style="display:inline">measure_pos</span><span data-if="c" style="display:none">measure_pos</span><span data-if="cpp" style="display:none">MeasurePos</span><span data-if="com" style="display:none">MeasurePos</span><span data-if="dotnet" style="display:none">MeasurePos</span><span data-if="python" style="display:none">measure_pos</span></code></a> it uses fuzzy functions to
evaluate and select the edges.
</p>
<p>For an explanation of the concept of 1D 测量 see the introduction of
chapter <a href="toc_1dmeasuring.html">1D 测量</a>.
</p>
<p>The algorithm of <code><span data-if="hdevelop" style="display:inline">fuzzy_measure_pos</span><span data-if="c" style="display:none">fuzzy_measure_pos</span><span data-if="cpp" style="display:none">FuzzyMeasurePos</span><span data-if="com" style="display:none">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none">FuzzyMeasurePos</span><span data-if="python" style="display:none">fuzzy_measure_pos</span></code>
works by averaging the gray values in “slices”
perpendicular to the major axis of the rectangle or annular arc
in order to obtain
a one-dimensional edge profile.  The sampling is done at subpixel
positions in the image <a href="#Image"><i><code><span data-if="hdevelop" style="display:inline">Image</span><span data-if="c" style="display:none">Image</span><span data-if="cpp" style="display:none">Image</span><span data-if="com" style="display:none">Image</span><span data-if="dotnet" style="display:none">image</span><span data-if="python" style="display:none">image</span></code></i></a> at integer row and column
distances (in the coordinate frame of the rectangle) from the center
of the rectangle.  Since this involves some calculations which can
be used repeatedly in several measurements, 该算子
<a href="gen_measure_rectangle2.html"><code><span data-if="hdevelop" style="display:inline">gen_measure_rectangle2</span><span data-if="c" style="display:none">gen_measure_rectangle2</span><span data-if="cpp" style="display:none">GenMeasureRectangle2</span><span data-if="com" style="display:none">GenMeasureRectangle2</span><span data-if="dotnet" style="display:none">GenMeasureRectangle2</span><span data-if="python" style="display:none">gen_measure_rectangle2</span></code></a> is used to perform these
calculations only once, thus increasing the speed of
<code><span data-if="hdevelop" style="display:inline">fuzzy_measure_pos</span><span data-if="c" style="display:none">fuzzy_measure_pos</span><span data-if="cpp" style="display:none">FuzzyMeasurePos</span><span data-if="com" style="display:none">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none">FuzzyMeasurePos</span><span data-if="python" style="display:none">fuzzy_measure_pos</span></code> significantly.  Since there is a trade-off
between accuracy and speed in the subpixel calculations of the gray
values, and thus in the accuracy of the extracted edge positions,
different interpolation schemes can be selected in
<a href="gen_measure_rectangle2.html"><code><span data-if="hdevelop" style="display:inline">gen_measure_rectangle2</span><span data-if="c" style="display:none">gen_measure_rectangle2</span><span data-if="cpp" style="display:none">GenMeasureRectangle2</span><span data-if="com" style="display:none">GenMeasureRectangle2</span><span data-if="dotnet" style="display:none">GenMeasureRectangle2</span><span data-if="python" style="display:none">gen_measure_rectangle2</span></code></a>.  (The interpolation only
influences rectangles not aligned with the image axes and annular arcs.)
The measure
object generated with <a href="gen_measure_rectangle2.html"><code><span data-if="hdevelop" style="display:inline">gen_measure_rectangle2</span><span data-if="c" style="display:none">gen_measure_rectangle2</span><span data-if="cpp" style="display:none">GenMeasureRectangle2</span><span data-if="com" style="display:none">GenMeasureRectangle2</span><span data-if="dotnet" style="display:none">GenMeasureRectangle2</span><span data-if="python" style="display:none">gen_measure_rectangle2</span></code></a> is passed
in <a href="#MeasureHandle"><i><code><span data-if="hdevelop" style="display:inline">MeasureHandle</span><span data-if="c" style="display:none">MeasureHandle</span><span data-if="cpp" style="display:none">MeasureHandle</span><span data-if="com" style="display:none">MeasureHandle</span><span data-if="dotnet" style="display:none">measureHandle</span><span data-if="python" style="display:none">measure_handle</span></code></i></a>.
</p>
<p>After the one-dimensional edge profile has been calculated, subpixel
edge locations are computed by convolving the profile with the
derivatives of a Gaussian smoothing kernel of standard deviation
<a href="#Sigma"><i><code><span data-if="hdevelop" style="display:inline">Sigma</span><span data-if="c" style="display:none">Sigma</span><span data-if="cpp" style="display:none">Sigma</span><span data-if="com" style="display:none">Sigma</span><span data-if="dotnet" style="display:none">sigma</span><span data-if="python" style="display:none">sigma</span></code></i></a>.  Salient edges can be selected with the parameter
<a href="#AmpThresh"><i><code><span data-if="hdevelop" style="display:inline">AmpThresh</span><span data-if="c" style="display:none">AmpThresh</span><span data-if="cpp" style="display:none">AmpThresh</span><span data-if="com" style="display:none">AmpThresh</span><span data-if="dotnet" style="display:none">ampThresh</span><span data-if="python" style="display:none">amp_thresh</span></code></i></a>, which constitutes a threshold on the amplitude,
i.e., the absolute value of the first derivative of the edge.
Additionally, it is possible to select only positive edges, i.e.,
edges which constitute a dark-to-light transition in the direction
of the major axis of the rectangle (<a href="#Transition"><i><code><span data-if="hdevelop" style="display:inline">Transition</span><span data-if="c" style="display:none">Transition</span><span data-if="cpp" style="display:none">Transition</span><span data-if="com" style="display:none">Transition</span><span data-if="dotnet" style="display:none">transition</span><span data-if="python" style="display:none">transition</span></code></i></a> =
<i><span data-if="hdevelop" style="display:inline">'positive'</span><span data-if="c" style="display:none">"positive"</span><span data-if="cpp" style="display:none">"positive"</span><span data-if="com" style="display:none">"positive"</span><span data-if="dotnet" style="display:none">"positive"</span><span data-if="python" style="display:none">"positive"</span></i>), only negative edges, i.e., light-to-dark
transitions (<a href="#Transition"><i><code><span data-if="hdevelop" style="display:inline">Transition</span><span data-if="c" style="display:none">Transition</span><span data-if="cpp" style="display:none">Transition</span><span data-if="com" style="display:none">Transition</span><span data-if="dotnet" style="display:none">transition</span><span data-if="python" style="display:none">transition</span></code></i></a> = <i><span data-if="hdevelop" style="display:inline">'negative'</span><span data-if="c" style="display:none">"negative"</span><span data-if="cpp" style="display:none">"negative"</span><span data-if="com" style="display:none">"negative"</span><span data-if="dotnet" style="display:none">"negative"</span><span data-if="python" style="display:none">"negative"</span></i>), or both
types of edges (<a href="#Transition"><i><code><span data-if="hdevelop" style="display:inline">Transition</span><span data-if="c" style="display:none">Transition</span><span data-if="cpp" style="display:none">Transition</span><span data-if="com" style="display:none">Transition</span><span data-if="dotnet" style="display:none">transition</span><span data-if="python" style="display:none">transition</span></code></i></a> = <i><span data-if="hdevelop" style="display:inline">'all'</span><span data-if="c" style="display:none">"all"</span><span data-if="cpp" style="display:none">"all"</span><span data-if="com" style="display:none">"all"</span><span data-if="dotnet" style="display:none">"all"</span><span data-if="python" style="display:none">"all"</span></i>).  Finally, it
is possible to select which edge points are returned.
</p>
<p>Having extracted subpixel edge locations,
features of these edges are evaluated by a corresponding fuzzy
function, which can be set by <a href="set_fuzzy_measure.html"><code><span data-if="hdevelop" style="display:inline">set_fuzzy_measure</span><span data-if="c" style="display:none">set_fuzzy_measure</span><span data-if="cpp" style="display:none">SetFuzzyMeasure</span><span data-if="com" style="display:none">SetFuzzyMeasure</span><span data-if="dotnet" style="display:none">SetFuzzyMeasure</span><span data-if="python" style="display:none">set_fuzzy_measure</span></code></a>. Which edges
are selected can be determined with the parameter <a href="#FuzzyThresh"><i><code><span data-if="hdevelop" style="display:inline">FuzzyThresh</span><span data-if="c" style="display:none">FuzzyThresh</span><span data-if="cpp" style="display:none">FuzzyThresh</span><span data-if="com" style="display:none">FuzzyThresh</span><span data-if="dotnet" style="display:none">fuzzyThresh</span><span data-if="python" style="display:none">fuzzy_thresh</span></code></i></a>,
which constitutes a threshold on the weight over all fuzzy sets, i.e., the
geometric mean of the weights of the defined sets.
</p>
<p>The selected edges are returned as single points, which lie on the
major axis of the rectangle or annular arc, in
(<a href="#RowEdge"><i><code><span data-if="hdevelop" style="display:inline">RowEdge</span><span data-if="c" style="display:none">RowEdge</span><span data-if="cpp" style="display:none">RowEdge</span><span data-if="com" style="display:none">RowEdge</span><span data-if="dotnet" style="display:none">rowEdge</span><span data-if="python" style="display:none">row_edge</span></code></i></a>, <a href="#ColumnEdge"><i><code><span data-if="hdevelop" style="display:inline">ColumnEdge</span><span data-if="c" style="display:none">ColumnEdge</span><span data-if="cpp" style="display:none">ColumnEdge</span><span data-if="com" style="display:none">ColumnEdge</span><span data-if="dotnet" style="display:none">columnEdge</span><span data-if="python" style="display:none">column_edge</span></code></i></a>).  The corresponding edge
amplitudes are returned in <a href="#Amplitude"><i><code><span data-if="hdevelop" style="display:inline">Amplitude</span><span data-if="c" style="display:none">Amplitude</span><span data-if="cpp" style="display:none">Amplitude</span><span data-if="com" style="display:none">Amplitude</span><span data-if="dotnet" style="display:none">amplitude</span><span data-if="python" style="display:none">amplitude</span></code></i></a>, the fuzzy scores in
<a href="#FuzzyScore"><i><code><span data-if="hdevelop" style="display:inline">FuzzyScore</span><span data-if="c" style="display:none">FuzzyScore</span><span data-if="cpp" style="display:none">FuzzyScore</span><span data-if="com" style="display:none">FuzzyScore</span><span data-if="dotnet" style="display:none">fuzzyScore</span><span data-if="python" style="display:none">fuzzy_score</span></code></i></a>.  In addition, the
distance between consecutive edge points is returned in
<a href="#Distance"><i><code><span data-if="hdevelop" style="display:inline">Distance</span><span data-if="c" style="display:none">Distance</span><span data-if="cpp" style="display:none">Distance</span><span data-if="com" style="display:none">Distance</span><span data-if="dotnet" style="display:none">distance</span><span data-if="python" style="display:none">distance</span></code></i></a>.  Here, Distance[i] corresponds to the distance
between Edge[i] and Edge[i+1], i.e., the tuple <a href="#Distance"><i><code><span data-if="hdevelop" style="display:inline">Distance</span><span data-if="c" style="display:none">Distance</span><span data-if="cpp" style="display:none">Distance</span><span data-if="com" style="display:none">Distance</span><span data-if="dotnet" style="display:none">distance</span><span data-if="python" style="display:none">distance</span></code></i></a>
contains one element less than the tuples <a href="#RowEdge"><i><code><span data-if="hdevelop" style="display:inline">RowEdge</span><span data-if="c" style="display:none">RowEdge</span><span data-if="cpp" style="display:none">RowEdge</span><span data-if="com" style="display:none">RowEdge</span><span data-if="dotnet" style="display:none">rowEdge</span><span data-if="python" style="display:none">row_edge</span></code></i></a> and
<a href="#ColumnEdge"><i><code><span data-if="hdevelop" style="display:inline">ColumnEdge</span><span data-if="c" style="display:none">ColumnEdge</span><span data-if="cpp" style="display:none">ColumnEdge</span><span data-if="com" style="display:none">ColumnEdge</span><span data-if="dotnet" style="display:none">columnEdge</span><span data-if="python" style="display:none">column_edge</span></code></i></a>.</p>
<h2 id="sec_attention">注意</h2>
<p><code><span data-if="hdevelop" style="display:inline">fuzzy_measure_pos</span><span data-if="c" style="display:none">fuzzy_measure_pos</span><span data-if="cpp" style="display:none">FuzzyMeasurePos</span><span data-if="com" style="display:none">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none">FuzzyMeasurePos</span><span data-if="python" style="display:none">fuzzy_measure_pos</span></code> only returns meaningful results if the
assumptions that the edges are straight and perpendicular to the
major axis of the rectangle are fulfilled.  Thus, it should not be
used to extract edges from curved objects, for example.
Furthermore, the user should ensure that the rectangle is as close
to perpendicular as possible to the edges in the image. Additionally,
<a href="#Sigma"><i><code><span data-if="hdevelop" style="display:inline">Sigma</span><span data-if="c" style="display:none">Sigma</span><span data-if="cpp" style="display:none">Sigma</span><span data-if="com" style="display:none">Sigma</span><span data-if="dotnet" style="display:none">sigma</span><span data-if="python" style="display:none">sigma</span></code></i></a> must not become larger than approx. 0.5 * Length1
(for Length1 see <a href="gen_measure_rectangle2.html"><code><span data-if="hdevelop" style="display:inline">gen_measure_rectangle2</span><span data-if="c" style="display:none">gen_measure_rectangle2</span><span data-if="cpp" style="display:none">GenMeasureRectangle2</span><span data-if="com" style="display:none">GenMeasureRectangle2</span><span data-if="dotnet" style="display:none">GenMeasureRectangle2</span><span data-if="python" style="display:none">gen_measure_rectangle2</span></code></a>).
</p>
<p>It should be kept in mind that <code><span data-if="hdevelop" style="display:inline">fuzzy_measure_pos</span><span data-if="c" style="display:none">fuzzy_measure_pos</span><span data-if="cpp" style="display:none">FuzzyMeasurePos</span><span data-if="com" style="display:none">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none">FuzzyMeasurePos</span><span data-if="python" style="display:none">fuzzy_measure_pos</span></code> ignores the
domain of <a href="#Image"><i><code><span data-if="hdevelop" style="display:inline">Image</span><span data-if="c" style="display:none">Image</span><span data-if="cpp" style="display:none">Image</span><span data-if="com" style="display:none">Image</span><span data-if="dotnet" style="display:none">image</span><span data-if="python" style="display:none">image</span></code></i></a> for efficiency reasons.  If certain regions
in the image should be excluded from the measurement a new measure
object with appropriately modified parameters should be generated.</p>
<h2 id="sec_execution">运行信息</h2>
<ul>
  <li>多线程类型:可重入(与非独占操作符并行运行)。</li>
<li>多线程作用域:全局(可以从任何线程调用)。</li>
  <li>未经并行化处理。</li>
</ul>
<h2 id="sec_parameters">参数表</h2>
  <div class="par">
<div class="parhead">
<span id="Image" class="parname"><b><code><span data-if="hdevelop" style="display:inline">Image</span><span data-if="c" style="display:none">Image</span><span data-if="cpp" style="display:none">Image</span><span data-if="com" style="display:none">Image</span><span data-if="dotnet" style="display:none">image</span><span data-if="python" style="display:none">image</span></code></b> (input_object)  </span><span>singlechannelimage <code>→</code> <span data-if="hdevelop" style="display:inline">object</span><span data-if="dotnet" style="display:none"><a href="HImage.html">HImage</a></span><span data-if="python" style="display:none">HObject</span><span data-if="cpp" style="display:none"><a href="HImage.html">HImage</a></span><span data-if="c" style="display:none">Hobject</span> (byte / uint2 / real)</span>
</div>
<p class="pardesc">Input image.</p>
</div>
  <div class="par">
<div class="parhead">
<span id="MeasureHandle" class="parname"><b><code><span data-if="hdevelop" style="display:inline">MeasureHandle</span><span data-if="c" style="display:none">MeasureHandle</span><span data-if="cpp" style="display:none">MeasureHandle</span><span data-if="com" style="display:none">MeasureHandle</span><span data-if="dotnet" style="display:none">measureHandle</span><span data-if="python" style="display:none">measure_handle</span></code></b> (input_control)  </span><span>measure <code>→</code> <span data-if="dotnet" style="display:none"><a href="HMeasure.html">HMeasure</a>, </span><span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">HHandle</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (handle)</span><span data-if="dotnet" style="display:none"> (<i>IntPtr</i>)</span><span data-if="cpp" style="display:none"> (<i>HHandle</i>)</span><span data-if="c" style="display:none"> (<i>handle</i>)</span></span>
</div>
<p class="pardesc">Measure object handle.</p>
</div>
  <div class="par">
<div class="parhead">
<span id="Sigma" class="parname"><b><code><span data-if="hdevelop" style="display:inline">Sigma</span><span data-if="c" style="display:none">Sigma</span><span data-if="cpp" style="display:none">Sigma</span><span data-if="com" style="display:none">Sigma</span><span data-if="dotnet" style="display:none">sigma</span><span data-if="python" style="display:none">sigma</span></code></b> (input_control)  </span><span>number <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">float</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Sigma of Gaussian smoothing.</p>
<p class="pardesc"><span class="parcat">Default:
      </span>1.0</p>
<p class="pardesc"><span class="parcat">Suggested values:
      </span>0.4, 0.6, 0.8, 1.0, 1.5, 2.0, 3.0, 4.0, 5.0, 7.0, 10.0</p>
<p class="pardesc"><span class="parcat">Value range:
      </span><code>0.4
          ≤
        
    <span data-if="hdevelop" style="display:inline">Sigma</span>
    <span data-if="c" style="display:none">Sigma</span>
    <span data-if="cpp" style="display:none">Sigma</span>
    <span data-if="com" style="display:none">Sigma</span>
    <span data-if="dotnet" style="display:none">sigma</span>
    <span data-if="python" style="display:none">sigma</span>
    
          ≤
          100</code> (lin)</p>
<p class="pardesc"><span class="parcat">Minimum increment:
      </span>0.01</p>
<p class="pardesc"><span class="parcat">Recommended increment:
      </span>0.1</p>
</div>
  <div class="par">
<div class="parhead">
<span id="AmpThresh" class="parname"><b><code><span data-if="hdevelop" style="display:inline">AmpThresh</span><span data-if="c" style="display:none">AmpThresh</span><span data-if="cpp" style="display:none">AmpThresh</span><span data-if="com" style="display:none">AmpThresh</span><span data-if="dotnet" style="display:none">ampThresh</span><span data-if="python" style="display:none">amp_thresh</span></code></b> (input_control)  </span><span>number <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">float</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Minimum edge amplitude.</p>
<p class="pardesc"><span class="parcat">Default:
      </span>30.0</p>
<p class="pardesc"><span class="parcat">Suggested values:
      </span>5.0, 10.0, 20.0, 30.0, 40.0, 50.0, 60.0, 70.0, 90.0, 110.0</p>
<p class="pardesc"><span class="parcat">Value range:
      </span><code>1
          ≤
        
    <span data-if="hdevelop" style="display:inline">AmpThresh</span>
    <span data-if="c" style="display:none">AmpThresh</span>
    <span data-if="cpp" style="display:none">AmpThresh</span>
    <span data-if="com" style="display:none">AmpThresh</span>
    <span data-if="dotnet" style="display:none">ampThresh</span>
    <span data-if="python" style="display:none">amp_thresh</span>
    
          ≤
          255</code> (lin)</p>
<p class="pardesc"><span class="parcat">Minimum increment:
      </span>0.5</p>
<p class="pardesc"><span class="parcat">Recommended increment:
      </span>2</p>
</div>
  <div class="par">
<div class="parhead">
<span id="FuzzyThresh" class="parname"><b><code><span data-if="hdevelop" style="display:inline">FuzzyThresh</span><span data-if="c" style="display:none">FuzzyThresh</span><span data-if="cpp" style="display:none">FuzzyThresh</span><span data-if="com" style="display:none">FuzzyThresh</span><span data-if="dotnet" style="display:none">fuzzyThresh</span><span data-if="python" style="display:none">fuzzy_thresh</span></code></b> (input_control)  </span><span>number <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">float</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Minimum fuzzy value.</p>
<p class="pardesc"><span class="parcat">Default:
      </span>0.5</p>
<p class="pardesc"><span class="parcat">Suggested values:
      </span>0.1, 0.3, 0.5, 0.6, 0.7, 0.9</p>
<p class="pardesc"><span class="parcat">Value range:
      </span><code>0.0
          ≤
        
    <span data-if="hdevelop" style="display:inline">FuzzyThresh</span>
    <span data-if="c" style="display:none">FuzzyThresh</span>
    <span data-if="cpp" style="display:none">FuzzyThresh</span>
    <span data-if="com" style="display:none">FuzzyThresh</span>
    <span data-if="dotnet" style="display:none">fuzzyThresh</span>
    <span data-if="python" style="display:none">fuzzy_thresh</span>
    
          ≤
          1.0</code> (lin)</p>
<p class="pardesc"><span class="parcat">Recommended increment:
      </span>0.1</p>
</div>
  <div class="par">
<div class="parhead">
<span id="Transition" class="parname"><b><code><span data-if="hdevelop" style="display:inline">Transition</span><span data-if="c" style="display:none">Transition</span><span data-if="cpp" style="display:none">Transition</span><span data-if="com" style="display:none">Transition</span><span data-if="dotnet" style="display:none">transition</span><span data-if="python" style="display:none">transition</span></code></b> (input_control)  </span><span>string <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">str</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (string)</span><span data-if="dotnet" style="display:none"> (<i>string</i>)</span><span data-if="cpp" style="display:none"> (<i>HString</i>)</span><span data-if="c" style="display:none"> (<i>char*</i>)</span></span>
</div>
<p class="pardesc">Select light/dark or dark/light edges.</p>
<p class="pardesc"><span class="parcat">Default:
      </span>
    <span data-if="hdevelop" style="display:inline">'all'</span>
    <span data-if="c" style="display:none">"all"</span>
    <span data-if="cpp" style="display:none">"all"</span>
    <span data-if="com" style="display:none">"all"</span>
    <span data-if="dotnet" style="display:none">"all"</span>
    <span data-if="python" style="display:none">"all"</span>
</p>
<p class="pardesc"><span class="parcat">List of values:
      </span><span data-if="hdevelop" style="display:inline">'all'</span><span data-if="c" style="display:none">"all"</span><span data-if="cpp" style="display:none">"all"</span><span data-if="com" style="display:none">"all"</span><span data-if="dotnet" style="display:none">"all"</span><span data-if="python" style="display:none">"all"</span>, <span data-if="hdevelop" style="display:inline">'negative'</span><span data-if="c" style="display:none">"negative"</span><span data-if="cpp" style="display:none">"negative"</span><span data-if="com" style="display:none">"negative"</span><span data-if="dotnet" style="display:none">"negative"</span><span data-if="python" style="display:none">"negative"</span>, <span data-if="hdevelop" style="display:inline">'positive'</span><span data-if="c" style="display:none">"positive"</span><span data-if="cpp" style="display:none">"positive"</span><span data-if="com" style="display:none">"positive"</span><span data-if="dotnet" style="display:none">"positive"</span><span data-if="python" style="display:none">"positive"</span></p>
</div>
  <div class="par">
<div class="parhead">
<span id="RowEdge" class="parname"><b><code><span data-if="hdevelop" style="display:inline">RowEdge</span><span data-if="c" style="display:none">RowEdge</span><span data-if="cpp" style="display:none">RowEdge</span><span data-if="com" style="display:none">RowEdge</span><span data-if="dotnet" style="display:none">rowEdge</span><span data-if="python" style="display:none">row_edge</span></code></b> (output_control)  </span><span>point.y-array <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">Sequence[float]</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Row coordinate of the edge point.</p>
</div>
  <div class="par">
<div class="parhead">
<span id="ColumnEdge" class="parname"><b><code><span data-if="hdevelop" style="display:inline">ColumnEdge</span><span data-if="c" style="display:none">ColumnEdge</span><span data-if="cpp" style="display:none">ColumnEdge</span><span data-if="com" style="display:none">ColumnEdge</span><span data-if="dotnet" style="display:none">columnEdge</span><span data-if="python" style="display:none">column_edge</span></code></b> (output_control)  </span><span>point.x-array <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">Sequence[float]</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Column coordinate of the edge point.</p>
</div>
  <div class="par">
<div class="parhead">
<span id="Amplitude" class="parname"><b><code><span data-if="hdevelop" style="display:inline">Amplitude</span><span data-if="c" style="display:none">Amplitude</span><span data-if="cpp" style="display:none">Amplitude</span><span data-if="com" style="display:none">Amplitude</span><span data-if="dotnet" style="display:none">amplitude</span><span data-if="python" style="display:none">amplitude</span></code></b> (output_control)  </span><span>real-array <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">Sequence[float]</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Edge amplitude of the edge (with sign).</p>
</div>
  <div class="par">
<div class="parhead">
<span id="FuzzyScore" class="parname"><b><code><span data-if="hdevelop" style="display:inline">FuzzyScore</span><span data-if="c" style="display:none">FuzzyScore</span><span data-if="cpp" style="display:none">FuzzyScore</span><span data-if="com" style="display:none">FuzzyScore</span><span data-if="dotnet" style="display:none">fuzzyScore</span><span data-if="python" style="display:none">fuzzy_score</span></code></b> (output_control)  </span><span>real-array <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">Sequence[float]</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Fuzzy evaluation of the edges.</p>
</div>
  <div class="par">
<div class="parhead">
<span id="Distance" class="parname"><b><code><span data-if="hdevelop" style="display:inline">Distance</span><span data-if="c" style="display:none">Distance</span><span data-if="cpp" style="display:none">Distance</span><span data-if="com" style="display:none">Distance</span><span data-if="dotnet" style="display:none">distance</span><span data-if="python" style="display:none">distance</span></code></b> (output_control)  </span><span>real-array <code>→</code> <span data-if="dotnet" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="python" style="display:none">Sequence[float]</span><span data-if="cpp" style="display:none"><a href="HTuple.html">HTuple</a></span><span data-if="c" style="display:none">Htuple</span><span data-if="hdevelop" style="display:inline"> (real)</span><span data-if="dotnet" style="display:none"> (<i>double</i>)</span><span data-if="cpp" style="display:none"> (<i>double</i>)</span><span data-if="c" style="display:none"> (<i>double</i>)</span></span>
</div>
<p class="pardesc">Distance between consecutive edges.</p>
</div>
<h2 id="sec_result">结果</h2>
<p>If the parameter values are correct 该算子
<code><span data-if="hdevelop" style="display:inline">fuzzy_measure_pos</span><span data-if="c" style="display:none">fuzzy_measure_pos</span><span data-if="cpp" style="display:none">FuzzyMeasurePos</span><span data-if="com" style="display:none">FuzzyMeasurePos</span><span data-if="dotnet" style="display:none">FuzzyMeasurePos</span><span data-if="python" style="display:none">fuzzy_measure_pos</span></code> 返回值 <TT>2</TT> (
      <TT>H_MSG_TRUE</TT>)
    .  Otherwise an
exception is raised.</p>
<h2 id="sec_predecessors">可能的前置算子</h2>
<p>
<code><a href="gen_measure_rectangle2.html"><span data-if="hdevelop" style="display:inline">gen_measure_rectangle2</span><span data-if="c" style="display:none">gen_measure_rectangle2</span><span data-if="cpp" style="display:none">GenMeasureRectangle2</span><span data-if="com" style="display:none">GenMeasureRectangle2</span><span data-if="dotnet" style="display:none">GenMeasureRectangle2</span><span data-if="python" style="display:none">gen_measure_rectangle2</span></a></code>, 
<code><a href="gen_measure_arc.html"><span data-if="hdevelop" style="display:inline">gen_measure_arc</span><span data-if="c" style="display:none">gen_measure_arc</span><span data-if="cpp" style="display:none">GenMeasureArc</span><span data-if="com" style="display:none">GenMeasureArc</span><span data-if="dotnet" style="display:none">GenMeasureArc</span><span data-if="python" style="display:none">gen_measure_arc</span></a></code>, 
<code><a href="set_fuzzy_measure.html"><span data-if="hdevelop" style="display:inline">set_fuzzy_measure</span><span data-if="c" style="display:none">set_fuzzy_measure</span><span data-if="cpp" style="display:none">SetFuzzyMeasure</span><span data-if="com" style="display:none">SetFuzzyMeasure</span><span data-if="dotnet" style="display:none">SetFuzzyMeasure</span><span data-if="python" style="display:none">set_fuzzy_measure</span></a></code>
</p>
<h2 id="sec_successors">可能的后置算子</h2>
<p>
<code><a href="close_measure.html"><span data-if="hdevelop" style="display:inline">close_measure</span><span data-if="c" style="display:none">close_measure</span><span data-if="cpp" style="display:none">CloseMeasure</span><span data-if="com" style="display:none">CloseMeasure</span><span data-if="dotnet" style="display:none">CloseMeasure</span><span data-if="python" style="display:none">close_measure</span></a></code>
</p>
<h2 id="sec_alternatives">可替代算子</h2>
<p>
<code><a href="edges_sub_pix.html"><span data-if="hdevelop" style="display:inline">edges_sub_pix</span><span data-if="c" style="display:none">edges_sub_pix</span><span data-if="cpp" style="display:none">EdgesSubPix</span><span data-if="com" style="display:none">EdgesSubPix</span><span data-if="dotnet" style="display:none">EdgesSubPix</span><span data-if="python" style="display:none">edges_sub_pix</span></a></code>, 
<code><a href="measure_pos.html"><span data-if="hdevelop" style="display:inline">measure_pos</span><span data-if="c" style="display:none">measure_pos</span><span data-if="cpp" style="display:none">MeasurePos</span><span data-if="com" style="display:none">MeasurePos</span><span data-if="dotnet" style="display:none">MeasurePos</span><span data-if="python" style="display:none">measure_pos</span></a></code>
</p>
<h2 id="sec_see">参考其它</h2>
<p>
<code><a href="fuzzy_measure_pairing.html"><span data-if="hdevelop" style="display:inline">fuzzy_measure_pairing</span><span data-if="c" style="display:none">fuzzy_measure_pairing</span><span data-if="cpp" style="display:none">FuzzyMeasurePairing</span><span data-if="com" style="display:none">FuzzyMeasurePairing</span><span data-if="dotnet" style="display:none">FuzzyMeasurePairing</span><span data-if="python" style="display:none">fuzzy_measure_pairing</span></a></code>, 
<code><a href="fuzzy_measure_pairs.html"><span data-if="hdevelop" style="display:inline">fuzzy_measure_pairs</span><span data-if="c" style="display:none">fuzzy_measure_pairs</span><span data-if="cpp" style="display:none">FuzzyMeasurePairs</span><span data-if="com" style="display:none">FuzzyMeasurePairs</span><span data-if="dotnet" style="display:none">FuzzyMeasurePairs</span><span data-if="python" style="display:none">fuzzy_measure_pairs</span></a></code>, 
<code><a href="measure_pairs.html"><span data-if="hdevelop" style="display:inline">measure_pairs</span><span data-if="c" style="display:none">measure_pairs</span><span data-if="cpp" style="display:none">MeasurePairs</span><span data-if="com" style="display:none">MeasurePairs</span><span data-if="dotnet" style="display:none">MeasurePairs</span><span data-if="python" style="display:none">measure_pairs</span></a></code>
</p>
<h2 id="sec_module">模块</h2>
<p>
1D Metrology</p>
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